课程代码

Course Code

PE6615

*学时

Teaching Hours

48

*学分

Credits

3

*课程名称Course Name

能源材料

Energy Materials

*授课语言Instruction

Language

英文

*开课院系School

中英国际低碳学院

先修课程Prerequisite

授课教师Instructors

姓名 Name

职称 Title

单位 Department

联系方式 E-mail

张垚鑫

副教授

中英国际低碳学院

zhangyaoxin@sjt u.edu.cn

*课程简介（中

文）Course

Description

《能源材料（Energy Materials）》是一门面向新能源、新材料与高端制造等国家战略需求的课程，能源材料是国家“双碳”背景下清洁能源技术发展的基础，因此该课程是一门重要的交叉科学技术基础课。课程将会从材料学的基础知识出发， 围绕材料的基本结构与性质展开，并进一步梳理材料在纳米尺度下展现出的独特现象；课程还将着重介绍低碳能源开发利用中所涉及的能源转换技术原理以及关键材料的研发，主要包括光电转换材料、储能材料与氢能相关材料等， 系统阐述材料特性与结构设计在低碳能源技术领域的前沿研究与应用，从而深入浅出地认识能源材料的研究过程及现状。本课程旨在帮助学生从材料基础科学的角度系统理解、掌握低碳能源领域的发展前沿，并能综合运用所学知识解决与新能源材料相关的复杂问题。

*课程简介（English）

Course

Description

"Energy Materials" is a course designed to address national strategic needs in new energy, new materials, and high-end manufacturing. Energy materials form the foundation for the development of clean energy technologies under China’s "Dual Carbon" goals, making this course  an  important  interdisciplinary  foundational  subject  in  science  and  technology. Starting from the fundamental principles of materials science, the course will explore the basic structures and properties of materials, and further examine the unique phenomena exhibited by materials at the nanoscale.  It will  also emphasize the  principles  of energy conversion technologies and the development of key materials involved in the utilization of low-carbon energy, including photovoltaic conversion materials, energy storage materials, and hydrogen-related materials. The course will systematically elucidate the properties of materials and structural design in cutting-edge research and applications within the field of low-carbon energy technologies, providing a clear and comprehensive understanding of the research processes and current state of energy materials. The aim of this course is to help students  systematically  understand  and  master  the  forefront  of  low-carbon  energy development from the perspective of materials science, and to comprehensively apply their knowledge to solve complex problems related to new energy materials.